Litcius/Paper detail

Inertial stochastic PALM and applications in machine learning

Johannes Hertrich, Gabriele Steidl

2022Sampling Theory Signal Processing and Data Analysis12 citationsDOIOpen Access PDF

Abstract

Abstract Inertial algorithms for minimizing nonsmooth and nonconvex functions as the inertial proximal alternating linearized minimization algorithm (iPALM) have demonstrated their superiority with respect to computation time over their non inertial variants. In many problems in imaging and machine learning, the objective functions have a special form involving huge data which encourage the application of stochastic algorithms. While algorithms based on stochastic gradient descent are still used in the majority of applications, recently also stochastic algorithms for minimizing nonsmooth and nonconvex functions were proposed. In this paper, we derive an inertial variant of a stochastic PALM algorithm with variance-reduced gradient estimator, called iSPALM, and prove linear convergence of the algorithm under certain assumptions. Our inertial approach can be seen as generalization of momentum methods widely used to speed up and stabilize optimization algorithms, in particular in machine learning, to nonsmooth problems. Numerical experiments for learning the weights of a so-called proximal neural network and the parameters of Student- t mixture models show that our new algorithm outperforms both stochastic PALM and its deterministic counterparts.

Topics & Concepts

Inertial frame of referenceStochastic gradient descentConvergence (economics)Mathematical optimizationComputer scienceStochastic optimizationAlgorithmMinificationArtificial neural networkStochastic approximationGeneralizationMathematicsArtificial intelligenceKey (lock)Mathematical analysisQuantum mechanicsEconomicsEconomic growthPhysicsComputer securitySparse and Compressive Sensing TechniquesStochastic Gradient Optimization TechniquesStatistical Methods and Inference